Pitch Deck 2024 Nano Vision Tech
ABOUT Our goal is to develop a revolutionary infrared and thermal high-resolution, low-cost, and green, imaging Nano Sensor and Night Vision Cameras. Our imaging technology would greatly exceed the resolution of modern night vision systems.Additionally, we want to create efficient and low cost solar-to-electricity converter. Improved Nano-Rectenna (INR) Cell – the core of the Imaging Nano Sensor(and solar-to-electricity converter) Private and Confidential | 2024 | 2
PROBLEMS Current Technology: The existing Night Vision Devices (NVD) technology is based on very old designs and require cryogenic cooling. Use of Unsafe Materials: NVD often use unsafe materials like white phosphor. Low Resolution: Current systems have very low resolution, typically 640 X 480 pixels (0.3 Mega Pixels) Visibility Concerns: Night vision sensors using affordable CMOS technology have limitations like: Pixel efficiency below 10%, visibility of systems with illumination component, can't be used in automotive systems because intense illumination from other vehicles will cause sensor blindness. Complex and Polluting Manufacturing: The manufacturing process for NVDs is complex and often pollutes the environment. High Production Cost: High cost of materials and the need for a cryogenic cooling. Private and Confidential | 2024 | 3
Some companies use Vox microbolometers for pixels of the image sensors, microbolometer pixels has low sensitivity, large noise and are not accurate. Our competitors can be our clients! CURRENT PROBLEMS IN THE THERMAL VISION CAMERA (LWIR) MARKET Private and Confidential | 2024 | 4 However, the pixel size remains as large as 15 µm - maximum resolution of 640 x 480 . Other companies create pixels from MCT (mercury cadmium telluride), which need cryogenic cooling to temperatures near that of liquid nitrogen (77K). Microbolometers has large pixels, in the range of 17 - 24 µm and the image resolution is low. High-quality microbolometers with a maximum resolution of 640 x 480 are expensive 10-25K USD. Cooled infrared detectors  provide clear image and superior performance. This is the most advanced technology, high quantum efficiency, high frame rate, high sensitivity, low noise, but are very expensive - above 50K USD.
SOLUTIONS The Improved Nano-Rectenna (INR) Cells for Near-Infrared and Thermal Night Vision Imaging presents several innovative solutions that will overcome the limitations of current technologies. Advanced Patented Technology: Integration of INR Cells on one chip with CMOS electronics within a single manufacturing cycle and usage of cheaper materials , no need of cryogenic cooling reduces the cost of the product. High Resolution Imaging: High resolution, surpassing the limitations of current systems and can be used in automotive systems Advanced Visibility: Pixel efficiency higher than 10%. Illumination from other vehicles does not impact the thermal imaging. Safe Materials and Manufacturing Process: Implementing new and safe materials with an eco-friendly manufacturing process. Private and Confidential | 2024 | 5 Nano Vision Tech
The Near-Infrared and Thermal Night Vision Imaging system is an innovative and advanced technology that leverages nano-scale components for capturing and processing electromagnetic waves. PRODUCT Nano Antenna Technology: Nano antennas capture electromagnetic waves, converting light into electricity with intensity proportional to light intensity. Nano-Rectenna Operation: Improved Nano-Rectenna (INR) technology allows alternating current (AC) to be converted to direct current (DC). Signal Amplification: An amplifier, powered by a dedicated energy source, enhances signals from each Nano-rectenna, forming an image based on captured light intensity. Integration into a Single Chip: INR system will be manufactured on a single chip, integrating nano components with CMOS control electronics for precision and miniaturization. The Product Features: Private and Confidential | 2024 | 6 Nano-rectenna equivalent electrical diagram Light Nano-antenna
PATENTS U.S. Patent No. 11,380,681, “INTEGRATED RECTIFIER”, Alexander Rozin, issued on July 5, 2022. EU patent No EP 3 593 385 B1, “INTEGRATED RECTIFIER”, Alexander Rozin, Date of publication and mention of the grant of the patent: 10.05.2023 Bulletin 2023/19. IL patent application No 269135, filed 04/09/2019. Claims accepted on Sept-1st 2023. The patent publication will be soon. China patent application No.201880025635.3, “INTEGRATED RECTIFIER”, Alexander Rozin, filed on October 17, 2019. Private and Confidential | 2024 | 7 1 2 3 4 Pending Patents Patents Secured
MARKET SIZE Private and Confidential | 2024 | 8 The Night Vision Cameras Market Global Thermal Camera Market CAGR 6.1%(2023 to 2030) $ 3.67 Bn $ 6.21Billion Market Size as at 2023 Market Size as at 2030 CAGR 11.78%(2023 to 2028) $ 5.21 Bn $ 9.10Billion Market Size as at 2023 Market Size as at 2028 Source: Maximize Market Research Source: Mordor Intelligence
Night Vision Device Market - Growth Rate Region Wise (2022-2027) MARKET OPPORTUNITY Private and Confidential | 2024 | 9 High Medium Low
MARKET DRIVERS Safety and Surveillance NeedsIncreasing concerns related to security threats and the need for effective surveillance drive the demand for Night Vision Devices in military, law enforcement, and homeland security applications. Military Modernization ProgramsMilitary modernization initiatives worldwide, with a focus on advanced technologies, drive the development and adoption of cutting-edge Night Vision Devices for defense applications. Automotive Night Vision SystemsIntegration of Night Vision Devices in automotive applications enhances driver safety by providing improved visibility in low-light conditions, contributing to market growth. Increasing Adoption in Commercial SectorsNight Vision Devices find applications in various industries, such as agriculture, oil and gas, search and rescue, contributing to increased commercial adoption. Private and Confidential | 2024 | 10
FUTURE MARKETS TO BE TAPPED Private and Confidential | 2024 | 11 Solar Water Heater Market is expected to grow up to $2.87B in 2026 INR Cells can produce electricity from the heat. Solar Energy to Electricity ConversionPhotovoltaic Market is expected to grow up to $223 B with 20.5% CAGR by 2026. INR cells is a direct competitor for the silicon solar cells.
FUTURE EXPECTATION Photovoltaic Market Existing technology NVS technology Most solar panels range from 15% to 17% efficiency Present NVS simulation result: 24 % efficiency The most efficient solar panel reach 22.8% efficiency Theoretical efficiency limited to only 33.7% Theoretical NVS efficiency: 88 - 98 % The cost per square meter is high: ~$40 The cost per square meter is expected to be 25% of current price, i.e. ~ $10 Private and Confidential | 2024 | 12
License Core TechnologyPotential PartnersIntevac, Inc.Photonis (Exosens Group)Elbit Systems Ltd.Rockwell Collins, Inc.FLIR Systems, Inc. We plan to license or sell the Night Vision technology to our competitors and/or get royalties from companies using our technology. REVENUE MODEL Sell Nano Vision ChipsPotential BuyersFLIR Systems Inc.Opgal Optronic Industries Ltd.Fluke CorporationTesto Inc.Seek Thermal Inc. Private and Confidential | 2024 | 13
TARGET MARKET Source Mordor Intelligence Short-term Period:US, India, Europe, and Israel. Long-term Period:China, Japan, and others. Private and Confidential | 2024 | 14 Target Market
STRATEGIC PARTNERSHIPS Private and Confidential | 2024 | 15 Jerusalem College of Technology is a Brach of LEV ACADEMIC CENTERLaboratories and research centersCenter for Nanotechnology for Research and Education Solid State Laser Laboratory The Center for Extended Relativity Medical Optics Research CenterNetLab Communication LaboratoryAdaptive Nano-Optics Research Center Center for Research in OceanographyFlexible Computing Research Laboratory Nano Vision Systems will use laboratories according to need and will hire graduate students for assistance in design and development.NVS is actively engaged in collaboration with the Nano Fabrication Center at Ben-Gurion University to adapt and optimize the patented technology for efficient product and production.
MILESTONES From 2018 and further, the Chief Scientist of the Israel Innovation Authority and the Ministry of Energy provided crucial support and funding for the development of our technology. In 2021, the Office of the Chief Scientist allocated a 3-year grant to propel the project into its next stage.NVS created Basic Technology Research, Concepts, and Applications (TRL1 and TRL2). Continued to the third Technological Readiness Level (TRL3) and proved feasibility including the formulation of fundamental principles and finished the analytical and experimental critical functions and proof of concept. 2018 2021 Private and Confidential | 2024 | 16
FUTURE ROADMAP Design, development, and fabrication of a complete Nano Vision Image Sensor Array (Nano-rectenna Imager)Interface Electronic Chip, and setup with Optical and electronic measurement equipment and displayTest of Nano Vision Image Sensor Computer simulation for basic components will be created and will be optimized with the nano-centerBasic components for NVS image sensors will be developed, designed, and optimized for nanofabrication 24 Months 36 Month 12 Month Private and Confidential | 2024 | 17 The basic components and electronic Interface board (PCB) of the Nano Vision Image Sensor will be finalized, re-designed, fabricated, and tested with optical & electronic measurement equipment
TEAM Dr. Eduard E. Mastov, Senior Nano-measurement Engineer Alexander Rozin, M.Sc., CTO/Chief Scientist Arie AharonovMBA, B.Sc., CEO 1.Professional with knowledge and experience in the design and development of nano-electronic, micro-electronic and electro photonic components2.Alexander served as CTO, Project Manager, and Senior Electronic Engineer in Israeli and international Hi-Tech Companies3.2011 - Present: Principal Investigator in Jerusalem College of Technology4.Inventor of 24 patents, 5 publications 1.Eduard is an expert in the physics of semiconductors, theory, and practical use of applied materials for micro and nanofabrication2.He is a leading Israeli expert in research, development, and fabrication of high-precision specific object-oriented measuring instruments for nano-scale applications3.Eduard has 15 publications and patents in the field of micro and nanotechnology 1.Senior portfolio manager, with over 27 years of experience in large to medium-sized Institutional Companies2.Strong analytical and modeling skills, and good relationships with managers, coworkers, and clients Private and Confidential | 2024 | 18
FUNDRAISE We are seeking to raise $3.0 M for 3 years to finish the prototype development and its testing. Fund Usage Breakup Private and Confidential | 2024 | 19 61% 8% 3% 3% 25% Operating Expenses including Payroll Equipment Materials Miscellaneous Sub-Contractors
FINANCIAL OVERVIEW Private and Confidential | 2024 | 20 Total Revenue Generated $ - $ - $ - $ 10,836,000 $ 23,220,000 $ 35,604,000 $ 47,988,000 $ 60,372,000 Profit After Tax (PAT) $ (909,020) $ (1,109,923) $ (1,182,375) $ 3,663,360 $ 8,472,992 $ 12,997,886 $ 16,817,783 $ 19,355,388 PAT Margin (%) NA NA NA 34% 36% 37% 35% 32% 2024 2025 2026 2027 2028 2029 2030 2031 $ - $ 10,000,000 $ 20,000,000 $ 30,000,000 $ 40,000,000 $ 50,000,000 $ 60,000,000 $ 70,000,000 $ (10,000,000) 0% 5% 10% 15% 20% 25% 30% 35% 40% 0% 0% 0% 34% 36% 37% 35% 32% Total Revenue Generated Profit After Tax (PAT) PAT Margin (%)
EXIT STRATEGIES Our exit strategy involves selling the Night Vision technology to industry competitors and/or receiving royalties from companies that will use our technology. Private and Confidential | 2024 | 21
CONTACT US Arie AharonovCEOCell.: +972-54-7206252Email : ariea@nano-vision.tech Web : https://www.nano-vision.tech/